Serotta



Sept. 10, 1963 G. sx-:RoTTA INTERCONMUNICATIQN SYSTEMS 2 Sheets-Sheet 1 Filed Oct. 19. 1960 wom wom E CNN Sept. 10,\ 1963 G. sERoTTA 3,103,557

INTERCOMMUNICATION SYSTEMS Filed OGG. 19. 1960 2 Sheets-Sheet 2 FIG 2 FIG 1 FIG. 3

FIG. 2

, INVENTOR GEORGE SEROTTA ma wwwa AGENT United States Patent O 3,103,557 INTERCOMMUNICATKN SYSTEMS George Serotta, Philadelphia, Pa. (1155 Easton Road, Roslyn, Pa.) Filed Oct. 19, 1960, Ser. No. 63,584 6 Claims. (Cl. 179-37) This invention relates to intercommunication systems and more particularly to those of the type utilizing a single amplifier for a plurality of interconnected stations each capable of selectively communicating with any other station.

It is an object of this invention to provide an improved intercommunication system of the type described above.

It is another object `or this invention to provide an intercommunication system which requires only a minimum number of components such as relays and power sources.

It is a further object odi this invention to provide an intercornmunication system with reduced susceptibility to feedback .between the talking circuit and the listening circuit without uneconomical separation of these circuits.

A still further object of this invention is the provision of an intercommunication system capable of selecting any number of other stations and selectively disconnecting any of those selected without interruption of the connections to those which remain selected.

It is a further object of this invention to provide an intercommunication system wherein the individual stations may be connected by short leads to bus wires which pass serially to all of the station locations.

A further object of lthis invention is the provision of a circuit for selecting stations by direct connection and without the use of relays.

For carrying out these objects there is provided a transducer for both transmission and reception at each of a plurality of stations. A cable having a calling station bus wire, a selected station lbus Wire `and a common selected station bus wire is passed serially to each station,

:and an amplilier is connected by irst and secon-d amplier leads to the calling station bus wire and the selected station bus wire, respectively. A relay is provided for connecting the rst and second amplier leads to the amplifier output and input, respectively, when the relay is in its normal state and for reversing those connections ywhen it is in its other state. Each station is provided with a iirst switch for connecting the transducer to the selected station bus wi-re in `one position and for connecting it to the calling station bus wire in the other position, a second switch for makin-g a selective connection between the selected station bu-s wire of the station being selected and ICC 2 interconnect the stations and a single ampliiier 22, a talkliste-n relay 24 and a battery 26. With this arrangement it is only necessary for the lead wires from each station to connect to the cable 2t) by short leads. The usual long leads to a centrally located common amplifier are therefore avoided.

The twelve wires of cable 20 include a calling station return Wire 1, which provides a return circuit for the transducer of the calling station and is common for all station-s; a calling station bus wire 2, which provides the common bus wire for carrying signals between the calling station and amplier 22; an operating current return circuit 3 providing a-return for the operating current for the busy lights in each station and under certain conditions the relay actuating coil and ampliiier 22 as well; a talk-listen relay bus wire4 to carry current to relay 24; a Ibusy light lbus wire 5 for carrying current to the busy lights lof each station; a common selected station bus Wire 6 providing the common connection carrying the signals to and from amplifier 22; a selected station return Wire 7 providing a common return circuit from theselected station to the amplifier; and selected station bus wires 8, 9, 10, 11, and 12 which provide the circuits which are selectively utilized to connect the transducer of the selected station 1, 2, 3', 4 or 5, respectively, to the common selected station -bus wire 6 Ifor connection to `amplifier 22. In addition the cable 2li may have wires 1 and 2 shielded by a shield 14 from the other conductors if cable 20 is long and feed-back is a problem.

As shown in FIG. l the 'battery 26 provides the only source of power for the system. Battery 26- is connected at its positive terminal to wire S by wire 70, to the power terminal 28 of ampliiier 22 by wire 3G and to the `actuating coil 29 of relay 24 'by wire 71. The other terminal olf relay coil 29 is connected by wire 73 to wire 4 of cable 2). The negative side of battery 26 is connected to a iirst contact 31 of relay 24. Contact 31 -is actuated simultaneously with second and third contacts 32 and 33 by the activating coil 29 when it is energized. When so actuated, the relay contacts 31, 32 `and '33 are disconnected yfrom contacts 34, 35 and 36 respectively, with which they connect in the normal -d'e-ener-gized state of relay 24 and connect with contacts 37, 38, and 39 respectively, in the other lor actuated state of relay 24.

Contacts 36 and 38 both connect by way of wire 4G to output terminal 42 of 'amplier 24. Contacts 35 and 39 lboth connect by way of wire 44 to input terminal 46 of ampliiier 22. Contact 34 is connected by wire 48 to the common selected station bus, and a third switch for opltlerating the relay when the calling station desires to ta These and further objects, advantages, land novel icatures, as well as the invention itself, may be fbest understood from the following description when read in conjunction with the drawing in which:

FIG. l is -a circuit diagram of a part of the system.

FIG. 2 is a block diagram showing the connections to the remaining parts of the system.

FIG. 3 shows how FlG; l `and FIG. 2 can =be combined to provide a circuit diagram of the entire system.

In the embodiment shown Iby FIGS. l and 2 when placed together as shown in FIG. 3 there are -ive stations, namely stations l, 2, 3, 4, and 5. Stations 1, 2, 3, and 4 are all constructed similarly and each acts las 4a master station capa-ble of selecting any other station. Station 5 is a slave station capable only of answering a call yfrom `any 'one of the other four stations. All live stations are interconnected by a twelve wire cable 20 passed serially from one station to the next. Gable 20 also serves t0 wire 3 of cable 20, and contact 37 is connected by. wire '50 to the common terminal 52 of amplier'22 which is the commonterminal for the input, output, and power connections. The other contacts 32 and 33 are respectively connected by amplier leads 54 Aand 56 to Wires 6 and 2 of cable 20.

Separate return leads 60, 61 land 6.2 respectively connect wires 1 and 7 and shield 14 to common terminal 52. rDhese separate leads prevent feedback between amplifier input and output circuits.

Station 1, as shown in FIG. l, is connected to the wires of cable 20 by short leads lill-112 while station 2 is connected to cable 20 Iby corresponding leadssimilarly numbered in the 200 series, namely 26d- 212.

Station 3 `and station 4 are similarly connected to cable 26 by wires numbered in the 360 and 4% series respectively with the positions of the connecting wires with respect to one another indicating connections to elements in the respective stations simil-ar to those shown for stations l and 2.

Slave station 5 is connected by wires 507 and 512 to wires 7 and 12 respectively of cable 20.

As shown in FIG. 1, station l comprises fou-r station selector switches 17d-173, one lfor each of the stations which station 1 can select. These switches are shown as multiple pole, double throw switches which may preferably be lever type switches which have a depressed position for their selected state and another normal position or state. Switch 170, for example, has poles or contacts 170:2, 1700?, 170g and 170]' each forming separate switch means which connect with contacts 170th, 170e, 170k and 170k respectively in the normal position :or state and with contacts 170C, 1701, 170i, and 170m in the depressed or selected position or state. LThe switches 171, 172, and 173 -are of similar construction and connect contacts 171a-171m, 172a-172m and H3G-173m in a similar manner to that explained :above tor contacts 170a-170m, respectively.

The contacts 170'a-173a all connect with wire 101 `as do contacts 170i-173. Wire 101 also connects to one side of a busy light 180 which is connected to wire 105 on its other side.

Contacts 170c-173c connect to wire 103, contacts 170f-173f connect to wire 102, contacts 170j-173j connect to wire 106 and contacts 170m-173m are vindividually connected to wires 109-112 respectively. The contacts 170d-173d connect with contacts 170e-173e respectively in the normal position of switches 170-173 and thereby connect contact 173e with contact 170e by way of wires 181-183 which connect the e contacts of each switch to the d contact of the next lower numbered switch. A similar connection is made between contacts 170k and 173g by wires 184-136.

Contacts 173d and 173g are connected to Iopposite sides of loudspeaker 190 'by wires 191 and 192, respectively.

Contacts V170e and 170k are connected to wires 10S and 107, respectively, so that when switches 170-173 are all in their normal positions there is a connection between one side off the loudspeaker 190 and wire 108 and the other side of the loudspeaker 190 and wire 107.

Station 1 also includes a'talk-listen switch 195 having a movable contact 196 which in its normal state or listen position is in Contact with idle contact 197 and which in its actuated statev or talk position is in contact with contact 198 which in turn connects to wire 104. The contact 196 being connected to wire 107 when the switch 195 is in the talk position, wires 107 Iand 104 `are connected. Switch 195 should desirably be of the type which does not lock in the talk position and has a spring return to the listen position.

4 Ia circuit from. the positive side of battery 26 throughV wires 70, 5, 105, busy light 180, 'wine 101, contacts 17011 land 170C, wires 1013, 3, 48, contacts 34 land 31, wire 27 to the negative terminal of battery 26 whereby ybusy light 180 is lit indicating that the system is in use. The lbusy light 280 of station 2 is in parallel with light 180 'by virtue of its connection between wire 5 and wire 1 by way of wire The operation of the intercommunication system of FIGS. l and 2 is best illustrated by reference to FIG. l wherein the detailed circuits of stations 1 land 2 are shown. When the system is not in use the selector switches 170-173 of station 1 and 2713-273 of station 2 fare all in their normal positions as shown in FIG. 1, the talklisten switches 195 and 295 are in the listen position as shown in FIG. l and relay 24 is in the deenergized state with its contacts 31, 32 and 33 in the position shown.

Under these conditions amplifier 22 is not connected to f battery 26 Iand the system is in its off condition.

Assuming that an operator at station l desires to contact station 2, the operator would depress selector switch 170 making contacts 170e, 170d, 170g, and 170i with contacts 170C, 170]", 170i, and 170m respectively. The making of contacts 170g and 170s` completes a circuit from the negative side of battery 26 through'wire 27, contact 31, contact 34, wire 48, wire 3, wire 103, contact 170C, conta-ct 170a, wire 101, wire 1 and wire 60 to common terminal 52 of amplifier 22. The positive side of battery 26 connects through conductor 30 to power terminal 28 thus completing the circuit for energiz-ation of amplifier 22 by battery 26. The amplifier 22 may be of `any of the well known circ-cuits used for intercommunications systems vbut should preferably 'be of the type utilizing transistors in order that no warm up time will be required before beginning voice transmission.

The making o-f contacts 170e and 170e` also completes 205, light 280 and wire 201. The ibusy lights of stations 3 )and 4 are likewise lit whenever a station is selected by the operator -at any of the other stations for their busy lights are also connected in parallel by similar circuits.

The making of contacts d and 170g with contacts 170i and 170i respectively, serve to connect speaker 190 between the calling station bus wire 2 Iand the calling station return wire 1. The connection to one side of loudspeaker is by way of wire v102, contacts 1707 and 170d, wire 181, contacts 171e and 171d, wire 182, contacts 172e and 172d, wire 183, contacts 173e and 173d and wire 191. From the other side of loudspeaker 190 to wire 1 through wire 192, contacts 173g and 173k, wire 186, contacts 172g and 172k, wire 185, contacts 171g and 171k, wire 184, contacts 170g `and 170i and wire 101.

As long as the talk-listen switch is in the listen position relay 24 :is de-energized and the calling station bus ywire 2 connects to output terminal 42 of ampiliiier 22 through ampliiier lead `56, contacts 33 and `36 of relay 214, and wire 40. The calling station return wire l1 connects through twire 60 to the common terminal 5-2 of amplitier 22 thus placing the loudspeaker -190 across the output of amplifier 22.

The making of contacts 1707' and l170m serves to accomplish the selection of the station being called, station 2 in this illustration, by connecting the common selected station |bus wire 6 to the selected station bus wire for station 2, namely wire 9. This connection is by way of wire 106, contacts 1170]' and 170m and wire i109.

The loudspeaker 290 of station 2 will thus be connected on one side to the amplifier input terminal 46 by way of wires 209, 9, 1019, contacts 170m and |1701' wires 106, 6, 54, contacts 32 and 35 and wire 44, and on the other side to the amplifier common terminal 52 by way of wires 207, 7, and 61. Selected station 2 -is thus connected for transmitting to the input of amplifier 22 and calling station 1 is connected for reception from -the output of amplifier 22 `whenever the talk-listen switch in the calling station, switch -19'5 in this illustration, is in the listen position and station 2 has been selected.

`It is evident from the above description of the operation of selector switch 170' that each of the selector switches performs several functions; namely, turning the ampliiier on, lighting the busy light, connecting the transducer to the cable 20 and connecting in the selected station.

When the operator at station 1 desires to talk, the talkiisten switch i195' is opera-ted to make contacts '196 and 198. As a result, the Iactuating coil 2-9 of relay 24 is energized. This is accomplishedl by battery -26 through a circuit from its positive side through wire 711 to one terminal of actuating coil 29 and from the negative side of battery 26 through wire 27, contacts y31 and 34, -wires 48, 3, 103, contacts #170C and 17011, wires |1011, 1, '60, 611, 7, 107, contacts 196 and 1-9-8 of talk-listen switch l195, wires I104, 4 and 73 to the other terminal of the actuating coil 29.

Actuation of relay 24 by energizing the actuating coil 29 causes contacts 31, 32, and 33 to be pulled into contact with contacts 37, 38, and 39 respectively. The making of contacts 31 and 37 changes the path through which current fiows from the negative side of battery 26 to the busy light 180, amplifier 22 and actuating coil 29.

22 for supply of power to amplifier 22 from ythe negative side of battery 26 is by a similar path through wire 27, contacts 3`=1 and 37 :and wire 50x The power for the amplifier therfore does not flow through the calling station return wire `1 as was the case before energization of relay 24 but instead flows through wire Sily which is isolated from the amplifier input circuit.

The connection from the negative side of the battery 26 to the relay iactuating coil 29 is now through wire 27, contacts 31 and 37, wires 50, X61, 7, 107, contacts i196 and i198 of talk-listen switch l195, wires '104, 4 and 73. Thus the current for maintaining actuating coil 29 energized also does not flow through calling station return wire 1 as it did when talk-listen switch 195 was in the listen position.

'It should be noted that actuation of relay 24 does not in any Way affect the connections of the positive side of battery 126 to amplifier 22, the busy lights such as i180 or actuating coil 29, but is only effective to change the connections to the negative side of battery 26.

Actuation of relay 24 in addition to switching the circuits from the negative side of battery 26 to amplifier 22, coil 29 and busy light 180y by moving contacts Sil also switches the connections of the amplifier input and output by moving contacts 32 and 33. lFor example, when contacts 32 is made with contact 33' upon energization of coil 29 the output terminal 42 of amplifier r22 is connected to the common selected station bus wire 6 and therefore to loudspeaker 296 of the` selected station 2 by the route previously explained. This connection to wire 6 is by Way of wire 4i?, contacts 38 and 32, and wire S4.

Thus station 2 can only receive when the talk-listen switch in station 1 is in the talk position.

The actuation of relay 24 thus accomplishes the dual function of switching the operating circuits and the amplifier input and output circuits.

The making of contacts 33 and 39 connects the input terminal 46 of amplifier 22 to the calling station bus wire 2 by way of wire 44, contacts 39 yand I33, and wire 56. Loudspeaker 19% is thus connected to the input of ampliiier 22 and station l can transmit. `It should be noted that the actuation of relay 24 does not in any way change the route of the connection between the loudspeaker l19t) and 290 to the common terminal I52 of amplifier l22.

-If -the operator at station l desires to select a station other than station 2, one of the other selecting switches 171, 172 or 173 may be actuated to select stations 3, 4, or 5 respectively.

Stations 2, 3, and 4 may also be used Iby operators at their respective -locations to call any other station by a similar selection of their respective selector switches and by lappropriate operation of their respective talk-listen switches.

The only diiierence between the connections of stations l, 2, 3, and 4 to cable 2h is in the connection of the e contacts of their respective selector switches, such as 170 and 27d for stations l and 2 and the connections to the "m contacts of the stations. This e contact in each station is connected to the selected station bus wire for that particular station and the connections to the several m contacts are individually from the selected station bus wires for the other stations.

Slave station 5 is only provided with a loudspeaker 59@ which is connected to the selected station return wire 7 by wire 507 'and to the selected station bus wire 12 for station 5 by wire 512. Slave station 5 is therefore only capable of replying to other stations.

With the circuits shown in FIGS. l and 2 it is possible t0 add other stations to the system by connecting them to the various conductors of cable in the same way that another station is connected. The added station would then be working in parallel with the other station and could select -only the stations selectable by that other station and could receive calls only vfrom stations other than ythe station it parallels.

The circuits of FIGS. l and 2 also allow' anyone stai-- tion to select any number of other stations with the selector switch arrangement shown. The calling station can then disconnect any of those called without discon- -necting the others since the selection is rnade directly by means of the selector switches and Without the use ont intermediate relays.

What is claimed is: l

l. An intercommunications system comprising a plural-ity of stations, each of said stations including a single transducer for effecting both voice transmission and reception, a multiple conductor cable having a plurality of bus wires, said cable being passed serially to each of said stations, said ycable including a calling station bus wire common to all stations, a separate selected station bus wire for each of said stations and a common selected station bus wire, an amplifier having an input and an output, first and second amplifier leads coupled to said calling station bus wire and said common selected station bus wire respectively, relay rmeans connecting said first and second amplifier leads to the output/and input of said amplifier respectively when said relay is in its normal state and for reversing the connection oct said leads when said relay is in another state, a first switch means at each of said stati-ons for connecting the transducer of that station to its selected station bus wire when in its normal state and for connecting the transducer to said calling station bus wire when in another state, a secon-d switch means at each of said stations for selectively connectingv the selected station bus wire of the station being called to said common selected station bus, and a third switch means at each of `said stations connected to chan-ge said relay from its normaly state to said other state when the operator at the calling station desires to talk.

2. An intercommuncations system according to claim l in which said cable includes a calling station return wire, and in which said relay means is operative to connect a source of power to said amplifier by way of said calling station return wire when said relay means is in its normal sta-te and to change said power connection to a circuit not including said callin-g station bus wire or said calling station return wire when said relay is in said other state.

3. An intercommunications system according .to claim l including a source off power for said amplifier, a fourth. switch means operable to connect said source of power to said amplifier simultaneously with the selective connection of one of said selected station bus wires to said common selected station bus.

4. An intercommunicationssystem comprising a plurality of stations, each ot said stations including a single transducer for effecting both Voice transmission and reception, a multiple `conductor cable having a plurality of bus wires, said cable being .passed serially to each of said stations, said cable including a calling station 'bus wire and separate calling and selected station return wires common to all stations, a separate selected station bus wire for each of said stations and a common selected station bus wire, an amplifier having an input terminal, an output terminal and a common terminal, first and second arnplifier leads'coupled at one end to said calling station -rbus wire and said common selected station bus wire respectively, relay means connecting the other ends of said first and second amplifier connecting leads respectively to the output terminal and input terminal of said amplifier when said relay is in its normal state and ttor reversing the connection of said leads when said relay is in another state, first and second return leads connecting said calling and selected station return wires respectively to `said common terminal, a first switch means at each of said! stations for connecting the transducer of that station to its selected stationbus wire and said selected station return Wire when in its normal state and for connecting the transducer -to said calling station bus wire and said call; ing station return wire when in another state, a second switch means at each of said stations for selectively connecting the selected station bus wire for the station being called to said common selected station bus, and a third switch means at each of said stations connected to operate said relay from its normal state to said other state when the operator desires yto talk.

5. An intercommunications system comprising a plurality of stations, each of said stations including a single transducer for efleoting both voice transmission and'recepti'on, a multiple conductor cable having a plurality of bus wires, said cable being passed serially to each of said stations, said cable including a calling station bus wire common to all stations, a separate selected station bus wire for each of said stations and a common selected station bus Wire, an amplifier having an input and output, first and second amplifier connecting leads coupled to said calling station bus wire and said common selected station bus Wire respectively, relay means connecting said first and second amplifier connecting leads. tothe output and input of said amplifier respectively when said relay is in its normal state and for reversing the connection of said leads When said relay is in another state, a first switch means at each f said stations for connecting the transducer 'of that station to its selected station bus wire when in its normal state and -for connecting the transducer to said calling station bus wire when in its actuated state, a second switch means at each of said stations for selectively connecting the selected station bus wire of lthe station Ibeing called to said common selected station bus when in its actuated state, a source ot power, a third switch means at each of said stations connected to energize said relay from its normal state to said other state by connection to said source when the operator desires to talk, a fourth switch means at each station operable when in its actuated state to connect said source of power to said amplifier, and means lfor actuating said first, second and' fourth switch means simultaneously;

6. An intercommunication system comprising a plurality of stations and a single amplifier, each of said stations 4havin-g a loudspeaker Afor transmission and reception, a plurality of interconnecting bus wires passing serially to each of said stations and to said amplifier, said interconnecting lbus wires including a common calling station bus wire, a separate selected station bus wire for each station, a common selected station bus Wire, a calling station return wire, a selected station return wire, a busy light bus wire, a relay ibus Wire and a busy light return wire, said amplifier having an input terminal, an

output terminal, a power terminal and a common terminal, la relay having first, second and third contacts operable to be connected to fourth, fifth and sixth contacts or to seventh, eighth, and ninth contacts in accordance with the state of energization of an actuating coil, first and second amplifier connecting leads connected at one end to said calling station bus wire and said common selected station bus wire respectively and connected at their other ends to said third and second contacts of said relay, a source of power, means connecting one terminal of said source to said first contact ot said relay, means connecting the other terminal of said amplifier and one terminal of said actuating coil of said relay, means connecting the other terminal of said relay actuating coil to said relay bus wire, separate return leads connecting said calling station return wire 'and said selected station return wire to said common terminal of said amplifier, means connecting said sixth and eighth contacts of said relay to said amplifier output terminal, means connecting said fifth and ninth relay contacts to said amplifier input, means connecting said fourth relay contact to said busy light return circuit, means connecting said seventh relay contact to said amplifier com-mon terminal, a plurality of two-position station selection switches in yeach of said stations, each switch in a station being associated with a separate one of the other of said station-s, said switches each having first, second, third and fourth contacts, said second and third contacts connecting said loudspeaker between a corresponding selected station bus wire and said selected station return wire when in the unselected position and connecting said loudspeaker across said calling station bus wire and said calling station return wire when in the selected position, said first contact of said selector switch being operative in the selected position to connect said calling station return wire to said busy light return wire, said fourth contact of said selector switch hein-g operative :in the selected position to connect the selected station bus wire or" the station being called to said common lselected station ybus wire, a ybusy light connected Ibe- -tween said busy light bus wire and said calling station return wire, and a talk-listen switch at each station operative when in the talk position to connect said relay bus wire :and said listening station return wire.

References Cited in the file of this patent UNITED STATES PATENTS UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 3 103 557 September l() 196 3 George Serotta It is hereby certified that error appears in the above numbered patent requiring correction and that the said Letters Patent should read as corrected below.

Column 8, line l2, after "said" insert source to said busy light bus wire, said power terminal of said Signed and sealed this 20th day of October 1964.

(SEAL) Attest:

A wasting Officer Commissioner of Patents 

1. AN INTERCOMMUNICATIONS SYSTEM COMPRISING A PLURALITY OF STATIONS, EACH OF SAID STATIONS INCLUDING A SINGLE TRANSDUCER FOR EFFECTING BOTH VOICE TRANSMISSION AND RECEPTION, A MULTIPLE CONDUCTOR CABLE HAVING A PLURALITY OF BUS WIRES, SAID CABLE BEING PASSED SERIALLY TO EACH OF SAID STATIONS, SAID CABLE INCLUDING A CALLING STATION BUS WIRE COMMON TO ALL SATIONS, A SEPARATE SELECTED STATION BUS WIRE FOR EACH OF SAID STATIONS AND A COMMON SELECTED STATION BUS WIRE, AN AMPLIFIER HAVING AN INPUT AND AN OUTPUT, FIRST AND SECOND AMPLIFIER LEADS COUPLED TO SAID CALLING STATION BUS WIRE AND SAID COMMON SELECTED STATION BUS WIRE RESPECTIVELY, RELAY MEANS CONNECTING SAID FIRST AND SECOND AMPLIFIER LEADS TO THE OUTPUT AND INPUT OF SAID AMPLIFIER RESPECTIVELY WHEN SAID REALY IS IN ITS NORMAL STATE AND FOR REVERSING THE CONNECTION OF SAID LEADS WHEN SAID RELAY IS IN ANOTHER STATE, A FIRST SWITCH MEANS AT EACH 